DE2262619A1 - MULTI-ANGLE PISTON FOR CIRCULAR PISTON COMBUSTION MACHINERY AND THE PROCESS FOR ITS MANUFACTURING - Google Patents

Description

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.AUDI NSU AUTO UNION AKTIENGESELLSCHAFT, Neckarsulrr./Württ. and WANKEL GMBH, Lindau / Bodensee

Polygonal piston for rotary piston internal combustion engines and its method of manufacture.

The invention relates to a polygonal piston for rotary piston internal combustion engines in Troehoid design, with an outer circumferential wall forming the piston flank, parallel to one another Side parts and an inner peripheral wall forming the central bearing hub, as well as a method for its manufacture.

Such pistons have always been made as a cast part, for which expensive molds and lost casting cores are required. The cast blank must be machined on all outer surfaces. · The cleaning of the inner cavities of core sand residues prepares Trouble. The wall thicknesses of a cast piston are relatively large and not absolutely uniform, so that imbalances result from the corresponding material ab-. must subsequently be eliminated.

The invention is based on the object of a polygonal Piston of the type mentioned above to create the. due to simpler production, * low weight and low Imbalance.

The piston according to the invention is characterized in that its walls are made from individual sheet steel parts which are deformed without cutting exist, which are soldered or welded together at their points of contact.

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BAD ORSQiMAL

The proposal according to the invention ensures that the individual V.'an de of the piston each have absolutely constant wall thicknesses, which can be considerably smaller than those of cast pistons, resulting in a lower Weight and a lower imbalance results. At least the outer circumferential surface forming the piston flanks is required no post-processing. Due to the smaller wall thicknesses

better cooling is also achieved. ,

Preferably, the outer peripheral wall of the piston is made from under see the same, each forming a piston flank, dimensionally accurate Formed stamped sheet steel parts, which rest on the university surfaces of the sheet steel plates forming the side walls and are soldered or welded to these. The bearing hub consists of a U-shaped cross-section, if necessary Sheet metal part formed by two mirror-image parts, the legs of which with the inner surfaces of the side surface are welded or soldered. The sheet steel parts forming the piston flank are just like the side walls forming sheet steel parts identical parts for their manufacture simple embossing and punching devices are sufficient.

Since radial grooves are required in the piston corners to accommodate sealing elements, it is expedient to use these Piston corners formed by abutting adjacent Piston flanks are formed to arrange inserts made of profile material, which with the adjacent inner surfaces the sheet steel parts forming the piston flanks are connected and have radial grooves for receiving sealing elements. These insert pieces can extend through the sheet steel plates forming the side walls, whereby the risk of leaks is avoided because the radial groove is not connected by several interconnected components runs.

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BATH

One of the sheet steel plates forming the side walls is preferably made of hardenable steel and with internal teeth forming part of the piston gear Mistake. This internal toothing can before assembly of the piston are pre-cut. This results in a considerable simplification compared to what was previously produced for itself and gear attached to the piston. '

The sheet steel plates forming the side walls can have their inner surfaces parallel to and close to the peripheral edges the same have extending grooves through which coolant flows during operation, whereby the area is cooled, in which axial seals are attached to the outer surface of the side walls.

To ensure a good flow of coolant through the interior of the piston To ensure, can be T-shaped in cross section between the piston flanks and the bearing hub Guide plates are arranged, the central webs of which in the middle of the coolant inflow bore provided in the bearing hub lie. The supplied cooling liquid is through these webs in the circumferential direction both to the one and deflected to the other adjacent piston corner.

The invention also relates to a method of manufacture of a piston according to the invention, which is characterized in that the sheet steel individual parts are stamped with accurate dimensions and the "inserts for the piston corners made of profile material are cut to length, the internal toothing of the sheet steel plate forming a side wall is pre-toothed by fine blanking is, then all individual parts with a side wall to fix the position while leaving a soldering gap pasted solder is applied to the joints and the second side wall is inserted then put the individual parts in a soldering furnace with are soldered to each other, then the internal teeth

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load-bearing side wall only in the pre-cut area by e.g. High-frequency process hardened and finally the bearing bore j the internal teeth and the grooves for receiving Diehteleinenten finished by mechanical processing will.

In a modification of this method, the sheet steel parts forming the piston flanks can be combined with those forming the side walls Sheet steel plates are connected to one another e.g. by electron beam welding or laser beam welding.

An embodiment of a piston according to the invention is shown in the drawing. It shows:

Fig. 1 is a side view of the piston partially in section along line A-A in Fig. 2,

Fig. 2 is a longitudinal section along line B-B in Fig. 1,

Fig. 3 is a plan view in the direction of arrow X in Fig. 1, and

Fig. 4 is an exploded view of the piston with all the individual parts before assembly.

The triangular piston shown has an outer circumferential wall which is formed from three precisely stamped sheet metal parts 1, two parallel side walls formed by stamped sheet steel plates 2 and 3 and a piston hub with a U-shaped cross section and formed by two mirror-image identical parts 4. As can be seen, the piston flanks 1 overlap the side walls 2 and 3 in order to avoid a parting line in the area which is directly exposed to the combustion gases and pressures. In the piston corners, which are formed by the juxtaposition of adjacent piston flanks 1, insert pieces 5 made of profile material are attached.

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BATH ORIGINAL

arranged, which serve to accommodate radial grooves, not shown, for sealing elements. These insert pieces 5 can as FIG. 2 shows, extend between the two side walls 2 and 3, but they can also extend through them to continue up to the outer surfaces of the side walls, which has the advantage that the radial grooves are not through parting surfaces run between interconnected components'. Between the piston flanks 1 and the bearing hub 4 are guide

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Sheets ο arranged, each consisting of two sheets that complement each other to form a T-profile. The central webs 7 of the T-profiles formed in this way each lie in the middle of inflow bores 8 which are provided in the bearing hub 4. The cooling liquid flowing in through these bores 8 is deflected by the webs J in the direction of the arrows 9 to the left and right to the adjacent piston corners. On the other side of the piston hub 8 “drainage bores 10 are provided for the cooling liquid.

The inner surfaces of the side walls 2 are grooved 11, polygons parallel to and close to the peripheral edges get lost. The cooling liquid flows through these grooves 11 during operation, thereby cooling the side walls takes place in the area in which the axial seals of the piston are arranged on the outer surfaces.

The side wall 3 is made of hardenable steel and with an internal toothing 12 provided, many marriage a part of the usual piston gear forms.

In the illustrated embodiment, a tube IJ penetrating the piston is inserted in the area of each piston corner, which serves to achieve pressure equalization between the two piston sides during operation.

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All individual parts of the piston are preferably ■ soldered together. In this case, all individual parts ground the piston r <in a holding device, with the exception of a side wall put on the other side wall and maintaining a soldering gap of, for example, Oj2mm by welding points fixed. A pasty-shaped solder, preferably Copper solder with addition of nickel, attached, the other side wall inserted and the one prepared and assembled in this way Plunger brought into a soldering furnace, v / o at a temperature of about 1100 ° all individual parts together be soldered tightly. Now it becomes the internal gearing load-bearing side wall 3 in) pre-cut area e.g. through High-frequency hardened and finally the bearing bore, the internal toothing and the grooves are used for receiving the learning of poetry completed by mechanical processing.

The connection of the individual parts of the piston can also be done in part by welding, in particular the Connection of the piston flanks 1 with the side walls 2 and 3 · For this purpose, the use of the electron beam » or laser beam welding processes are particularly suitable.

The piston according to the invention is characterized by an efficient production, since a mechanical cutting Processing is only necessary in a few places. It is lighter than a cast piston, and Rann can be manufactured with practically no imbalance due to the many identical parts. ,

- patent claims -

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Claims (8)

Pat entans examine Polygonal piston for rotary piston internal combustion engines of trochoidal design, with an outer peripheral wall forming the piston flanks, side walls parallel to one another and an inner peripheral wall forming the central bearing hub, characterized in that its .Wands (1, 2, J>, 4) are made of non-cutting deformed sheet steel - There are individual parts that are soldered or welded together at their points of contact. 2. Piston according to claim 1, characterized in that the outer peripheral wall is formed from the same, each one piston flank (1) forming, precisely stamped sheet steel parts which rest on the peripheral surfaces of the sheet steel plates forming the side walls (2, 3) and with these are soldered or welded, and that the bearing hub consists of a sheet metal part with a U-shaped cross-section, optionally formed by two mirror-image parts (4), the legs of which are welded or soldered to the inner surfaces of the side walls (2, 5). . _; .... 3. Piston according to claim 2, characterized in that in the piston corners, which come into contact with each other . , ■ adjacent inner surfaces of the sheet steel parts forming the piston flanks (1) are connected and radial grooves have for receiving sealing elements. 409826/0569 4. Piston according to claim 3j, characterized in that the insert ^ (5) through which the side walls (2, 2) forming sheet steel plates extend therethrough. 5. Piston according to claim 2, characterized in that one (3) of the sheet steel plates forming the side walls (2, 3) is made of hardenable steel and is provided with internal teeth (12) forming part of the piston gear. . 6. Piston according to claim 2, characterized in that the sheet steel plates forming the side walls (2, 3) have on their inner surfaces parallel to the peripheral edges and close to the same extending grooves (11). 7. Piston according to claim 2, characterized in that between the piston flanks (1) and the bearing hub (4) In cross-section T-shaped guide plates (6) are arranged, the central webs (7) in the middle of in the Bearing hub (4) provided coolant inflow bores (8) lie. 8. A method for producing a piston according to one or more of the preceding claims _4, characterized in that the sheet steel parts are precisely stamped and the inserts for the piston corners are cut to length from profile material, the internal teeth of the sheet steel plate forming a side wall is pre-cut by fine blanking, then all "·. Individual parts with a side wall for fixing the position, leaving a solder gap of max. 0.15mm 409826/0569 be welded, then paste-like at the joints Solder attached and the second side wall is inserted and then the individual parts together are soldered, then the side wall carrying the internal toothing only in the pre-toothed area e.g. hardened by high-frequency processes and finally the bearing bore, the internal toothing and the grooves to accommodate sealing elements by mechanical means Machining to be completed. I8.i2.i972
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